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SIMPLE = T / DATA IS IN FITS FORMAT
BITPIX = 32 / 32 BIT SIGNED TWOS COMPLEMENT INTEGER
NAXIS = 2 / NUMBER OF AXES
NAXIS1 = 1024 / PIXELS ON 1st MOST VARYING AXIS
NAXIS2 = 1024 / PIXELS ON 2nd MOST VARYING AXIS
EXTEND = F / Extension exists or not (T or F)
I_FNAME = 'IRCA00228778 '
FRAMEID = 'IRCA00228778 '
EXP-ID = 'IRCA00228778 '
I_HDRVER= 2.10 / IRCS HEADER VERSION
OBSERVER= 'Sugita, Terada, Okam' / Observer
INSTRUME= 'IRCS ' / Instrument
TELESCOP= 'SUBARU ' / Telescope
OBS-ALOC= 'Observation ' / Observation or Standby
OBSERVAT= 'NAOJ ' / Observatory
OBJECT = 'HR 1570 ' / Object
DATA-TYP= 'OBJECT ' / Data Type
OBS-MOD = 'ECHELLE ' / Observation Mode
DETECTOR= 'Aladdin3 SCA-420055' / Name of detector
TIMESYS = 'UTC ' / Time system used in this header
DATE-OBS= '2009-10-09 ' / UT date of Observation (yyyy-mm-dd)
EXP1TIME= 5.0000 / Integration time in seconds
EXPTIME = 10.0000 / Integration time in seconds
COADD = 2 / Number of Coadds
COADDS = 2 / Number of Coadds
DET-NSMP= 12 / Number of Non-Destructive Reads
I_NDR = 12 / Number of Non-Destructive Reads
NDR = 12 / Number of Non-Destructive Reads
UT-STR = '15:46:03.96 ' / Start Exposure at UTC (HH:MM:SS.SS)
UT = '15:46:13.48 ' / Typical UTC at exposure (HH:MM:SS.SS)
UT-END = '15:46:23.79 ' / End Exposure at UTC (HH:MM:SS.SS)
HST = '05:46:03.96 ' / Start exposure at HST (HH:MM:SS.SS)
DET-TMP = 0.00 / Detector Temperature
BIN-FCT1= 1 / Binning factor of the X axis
BIN-FCT2= 1 / Binning factor of the Y axis
BLANK = 32768 / Value used for null pixels
BUNIT = 'ADU ' / Unit of original pixel values
BSCALE = 1.00 / Real = fits-value*BSCALE+BZERO
BZERO = 0.00 / Real = fits-value*BSCALE+BZERO
I_NSQ = 1 / Number of the frame in the sequence
I_NSQMAX= 1 / Maximum number of the sequence
SLIT = '0.14x3.47 J ' / Entrance slit identifier
PROP-ID = 'o09142 ' / Proposal ID
DATASET = 'NOP ' / Id of Observation Dataset
DET-ID = 2 / Detector Id. (1:CAMERA, 2:SPECTROGRAPH)
EQUINOX = 2000.000 / Standard FK5 (years)
UT1-UTC = 0.192 / Difference between UT1 and UTC
MJD = 55113.65697917 / Modified Julian Day at typical time
LST = '06:37:12.26 ' / Typical local sidereal time during exposure
WCS-ORIG= 'SUBARU Toolkit ' / Origin of World Coordinate System
RA = '04:54:53.549 ' / HH:MM:SS.SSS RA pointing
DEC = '+10:08:58.42 ' / +/-DD:MM:SS.SS DEC pointing
RA2000 = '04:54:53.549 ' / HH:MM:SS.SSS RA (J2000) pointing
DEC2000 = '+10:08:58.42 ' / +/-DD:MM:SS.SS DEC (J2000) pointing
AZIMUTH = 252.35155 / Azimuth angle of telescope pointing
ALTITUDE= 63.53102 / Altitude angle of telescope pointing
ZD = 26.46934 / Zenith Distance at typical time
LONGPOLE= 180.0 / The North Pole of the standard system
RADECSYS= 'FK5 ' / Equatorial coordinate system
CRPIX1 = 512.5 / Reference pixel in X (pixel)
CRPIX2 = 512.5 / Reference pixel in Y (pixel)
CRVAL1 = 73.72312164 / RA (dg) of CRPIX1 reference pixel X
CRVAL2 = 10.14956093 / DEC (dg) of CRPIX2 reference pixel Y
CDELT1 = 0.00003194 / X Scale projected on detector (dg/pixel)
CDELT2 = 0.00003194 / Y Scale projected on detector (dg/pixel)
FOC-POS = 'Nasmyth-IR ' / Focus where instrument is attached
TELFOCUS= 'Nasmyth-IR ' / Focus where a beam is reachable
CAS-TAVE= / Cassegrain Enclosure Average Temperature
FOC-VAL = -0.175 / Encoder value of the focus unit
AIRMASS = 1.117 / Averaged Air Mass
INSROT = -133.858 / Instrument rotator angle
INST-PA = 0.270 / Instrument rotator position angle
AUTOGUID= 'OFF ' / Autoguiding on/off
PROJP1 = 0.0 / Projection Type of the first axis
PROJP2 = 0.0 / Projection Type of the second axis
D_LOOP = 'ON ' / Loop state (ON,OFF)
D_MODE = 'NGS ' / Guide star mode (NGS,LGS,LGSwoNGS)
D_ENSHUT= 'OPEN ' / Entrance shutter position (IN,OUT)
D_IMR = 'TRACK ' / IMR status (TRACK,SLEW,STANDBY)
D_IMRMOD= 'SID ' / IMR mode (SID,NON-SID,ADI,STOP,OTHER)
D_IMRANG= 19.420 / IMR angle (deg)
D_IMRPA = 0.300 / IMR position angle (deg)
D_BS1 = 'NIR1 ' / BS1 position (NIR1,NIR2,OPT)
D_FCONV = 'IN ' / F-conversion optics position (IN,OUT)
D_AU1X = 1.03389 / AU1 offset X (mm)
D_AU1Y = -0.76436 / AU1 offset Y (mm)
D_AU1XA = 1.92766 / AU1 offset X on sky (arcsec)
D_AU1YA = -1.42512 / AU1 offset Y on sky (arcsec)
D_AU1FOC= 0.00006 / AU1 focus (mm)
D_AU1TX = -0.00001 / AU1 tilt X (deg)
D_AU1TY = -0.00005 / AU1 tilt Y (deg)
D_HWNAP = '4ASEC ' / HOWFS NGS aperture name
D_HWABS = 'TR9010 ' / HOWFS acq cam. BS position
D_HWHBS = 'NONE ' / HOWFS hires cam. BS position
D_VMAP = 'FULL ' / HOWFS VM aperture
D_VMAPS = 4.64660 / HOWFS VM aperture size (arcsec)
D_HWPBS = 'NONE ' / HOWFS pupil cam. BS position
D_HWLAZ = 'NOBS ' / HOWFS LA focus stage position
D_HWLAF = 'ND3 ' / HOWFS LA filter wheel position
D_HWLASH= 'OPEN ' / HOWFS LA shutter state (OPEN,CLOSE)
D_HWAPDA= 434.520 / HOWFS APD Average Counts (kcps/elem)
D_VMVOLT= 0.50 / VM voltage (V)
D_VMFREQ= 1000.0 / VM frequency (Hz)
D_VMPHAS= 9.8 / VM phase (deg)
D_DMGAIN= 2.00000 / DM gain
D_TTGAIN= 0.00100 / TT gain
PC001001= -0.999989 / Coordinate translation matrix
PC001002= 0.004712 / Coordinate translation matrix
PC002001= 0.004712 / Coordinate translation matrix
PC002002= 0.999989 / Coordinate translation matrix
CTYPE1 = 'LINEAR ' / Pixel Coordinate System
CTYPE2 = 'RA--TAN ' / Pixel Coordinate System
CUNIT1 = 'degree ' / CRVAL1 units
CUNIT2 = 'degree ' / CRVAL2 units
FILTER01= 'J ' / First filter element
WAVELEN = 0.0000 / Wavelength at detector center (microns)
SLTCPIX1= 0.00000000 / Slit detector center (pixel)
SLTCPIX2= 0.00000000 / Slit detector center (pixel)
SLT-LEN = 3.89339997 / Slit length (arcsec)
SLT-WID = 0.15450001 / Slit width (arcsec)
SLT-PA = 90.00000000 / Slit Position Angle
SLTC-RA = 0.00000000 / RA of slit center (degree)
SLTC-DEC= 0.00000000 / DEC of slit center (degree)
DISPERSR= 'ECHELLE ' / Disperser name
DISPAXIS= 2 / Number of dispersing axes
I_MCW1NM= 'OPEN:1 ' / Camera Wheel 1 element name
I_MCW1PK= 1 / Camera Wheel 1 puka
I_CW1HV = 3043 / Camera Wheel 1 Hall Value
I_CW1MP = 3050 / Camera Wheel 1 motor position
I_MCW2NM= 'Kp ' / Camera Wheel 2 element name
I_CW2PK = 9 / Camera Wheel 2 puka
I_CW2HV = 2356 / Camera Wheel 2 Hall Value
I_CW2MP = 67100 / Camera Wheel 2 motor position
I_MCW3NM= 'ND(CaF2 1/4) ' / Camera Wheel 3 element name
I_CW3PK = 2 / Camera Wheel 3 puka
I_CW3HV = 3022 / Camera Wheel 3 Hall Value
I_CW3MP = 13000 / Camera Wheel 3 motor position
I_MFOCMC= 2500 / Focus Stage microns
I_MFOCHV= 3204 / Focus Stage hall value
I_MFOCMP= 8590 / Focus Stage motor position
I_MDFMST= '20MAS ' / Dual Flipmirror State
I_MFM1ST= 'OUT ' / Flipmirror 1 State IN/OUT
I_MFM1HV= 753 / Flipmirror 1 Hall Value
I_MFM1MP= -500 / FlipMirror 1 motor position
I_MFM2ST= 'OUT ' / Flipmirror 2 state IN/OUT
I_MFM2HV= 0 / Flipmirror 2 Hall Value
I_MFM2MP= 500 / FlipMirror 1 motor position
I_SLWNM = '0.14x3.47 J ' / SlitWheel element name
I_SLWPK = 4 / Slitwheel puka
I_SLWHV = 3010 / Slitwheel Hall Value
I_SLWMP = 28700 / SlitWheel motor position
I_SPWNM = 'J ' / Spectrograph Wheel element name
I_SPWPK = 4 / Spectrograph Filter Wheel Puka
I_SPWHV = 3189 / Spectrograph Filter Wheel Hall Value
I_SPWMP = 13000 / Spectrograph Filter Wheel Motor Position
I_MECHAS= 2240 / Echelle Arcsec
I_MECHHV= 2365 / Echelle Hall value
I_MECHMP= 4978 / Echelle Motor Position
I_MXDSAS= 0 / Cross Disperser Arcsec
I_MXDSHV= 2073 / Cross Disperser Hall value
I_MXDSMP= 0 / Cross Disperser motor position
I_CKMODE= 'ARC_D ' / Detector clock mode
I_GRNS = 40000 / Detector global reset pulsewidth (ns)
I_BGRFL = T / Backgroud Resets flag T:Yes F:No
I_BGRRT = 900 / Detector backgroud resets rate (ms)
I_BGRDL = 10 / Detector background reset delay (ms)
I_BGRPW = 40000 / Backgroud Resets pulsewidth (nanoseconds)
I_SLWCNT= 16 / Number of detector Slow Counts
I_VGGCL = -3.25 / Detector VGGCL volts
I_VDET = -3.45 / Detector VDET (volts)
I_VDDUC = -3.75 / Detector VDDUC (volts)
I_VBIAS = 0.30 / Detector Bias= I_VDET - I_VDDUC (volts)
GAIN = 3.8 / AD conversion factor (electron/ADU)
I_PGAIN = 18.289 / Gain of Redline Preamp Boards
I_NSUBAR= 1 / Number of Sub Arrays
I_SAR1CX= 0 / Subarray 1 center x pixel coord
I_SAR1CY= 0 / Subarray 1 center y pixel coord
I_SAR1WD= 0 / Subarray 1 width
I_SAR1HT= 0 / Subarray 1 height
I_NDRASZ= 0.00000000 / Nod R.A. size (arc seconds)
I_NDDCSZ= 0.00000000 / Nod DEC size (arc seconds)
I_DTHSZ = 1.00000000 / Dither step size (arc seconds)
I_DTHPAT= 'ABBA ' / Dither pattern shape
I_DTHNUM= 4 / N positions in dither
I_DTHPOS= 'A1 ' / Dither position
I_ROTAO = 180.00000000 / Array Rotation AO M1 IN
I_ROTNAO= 0.00000000 / Array Rotation AO M1 OUT
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